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8f69e977f1
* `@clz` * `@ctz` * `@popCount` * `@byteSwap` * `@bitReverse` * various encodings used by std
171 lines
6.5 KiB
Zig
171 lines
6.5 KiB
Zig
// Ported from:
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//
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// https://github.com/llvm/llvm-project/blob/2ffb1b0413efa9a24eb3c49e710e36f92e2cb50b/compiler-rt/test/builtins/Unit/multf3_test.c
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const std = @import("std");
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const math = std.math;
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const qnan128: f128 = @bitCast(@as(u128, 0x7fff800000000000) << 64);
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const inf128: f128 = @bitCast(@as(u128, 0x7fff000000000000) << 64);
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const __multf3 = @import("multf3.zig").__multf3;
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const __mulxf3 = @import("mulxf3.zig").__mulxf3;
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const __muldf3 = @import("muldf3.zig").__muldf3;
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const __mulsf3 = @import("mulsf3.zig").__mulsf3;
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// return true if equal
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// use two 64-bit integers intead of one 128-bit integer
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// because 128-bit integer constant can't be assigned directly
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fn compareResultLD(result: f128, expectedHi: u64, expectedLo: u64) bool {
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const rep: u128 = @bitCast(result);
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const hi: u64 = @intCast(rep >> 64);
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const lo: u64 = @truncate(rep);
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if (hi == expectedHi and lo == expectedLo) {
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return true;
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}
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// test other possible NaN representation(signal NaN)
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if (expectedHi == 0x7fff800000000000 and expectedLo == 0x0) {
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if ((hi & 0x7fff000000000000) == 0x7fff000000000000 and
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((hi & 0xffffffffffff) > 0 or lo > 0))
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{
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return true;
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}
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}
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return false;
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}
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fn test__multf3(a: f128, b: f128, expected_hi: u64, expected_lo: u64) !void {
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const x = __multf3(a, b);
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if (compareResultLD(x, expected_hi, expected_lo))
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return;
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@panic("__multf3 test failure");
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}
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fn makeNaN128(rand: u64) f128 {
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const int_result = @as(u128, 0x7fff000000000000 | (rand & 0xffffffffffff)) << 64;
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return @bitCast(int_result);
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}
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test "multf3" {
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// qNaN * any = qNaN
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try test__multf3(qnan128, 0x1.23456789abcdefp+5, 0x7fff800000000000, 0x0);
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// NaN * any = NaN
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const a = makeNaN128(0x800030000000);
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try test__multf3(a, 0x1.23456789abcdefp+5, 0x7fff800000000000, 0x0);
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// inf * any = inf
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try test__multf3(inf128, 0x1.23456789abcdefp+5, 0x7fff000000000000, 0x0);
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// any * any
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try test__multf3(
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@as(f128, @bitCast(@as(u128, 0x40042eab345678439abcdefea5678234))),
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@as(f128, @bitCast(@as(u128, 0x3ffeedcb34a235253948765432134675))),
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0x400423e7f9e3c9fc,
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0xd906c2c2a85777c4,
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);
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try test__multf3(
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@as(f128, @bitCast(@as(u128, 0x3fcd353e45674d89abacc3a2ebf3ff50))),
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@as(f128, @bitCast(@as(u128, 0x3ff6ed8764648369535adf4be3214568))),
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0x3fc52a163c6223fc,
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0xc94c4bf0430768b4,
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);
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try test__multf3(
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0x1.234425696abcad34a35eeffefdcbap+456,
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0x451.ed98d76e5d46e5f24323dff21ffp+600,
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0x44293a91de5e0e94,
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0xe8ed17cc2cdf64ac,
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);
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try test__multf3(
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@as(f128, @bitCast(@as(u128, 0x3f154356473c82a9fabf2d22ace345df))),
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@as(f128, @bitCast(@as(u128, 0x3e38eda98765476743ab21da23d45679))),
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0x3d4f37c1a3137cae,
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0xfc6807048bc2836a,
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);
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try test__multf3(0x1.23456734245345p-10000, 0x1.edcba524498724p-6497, 0x0, 0x0);
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// Denormal operands.
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try test__multf3(
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0x0.0000000000000000000000000001p-16382,
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0x1p16383,
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0x3f90000000000000,
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0x0,
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);
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try test__multf3(
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0x1p16383,
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0x0.0000000000000000000000000001p-16382,
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0x3f90000000000000,
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0x0,
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);
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try test__multf3(0x1.0000_0000_0000_0000_0000_0000_0001p+0, 0x1.8p+5, 0x4004_8000_0000_0000, 0x0000_0000_0000_0002);
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try test__multf3(0x1.0000_0000_0000_0000_0000_0000_0002p+0, 0x1.8p+5, 0x4004_8000_0000_0000, 0x0000_0000_0000_0003);
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try test__multf3(2.0, math.floatTrueMin(f128), 0x0000_0000_0000_0000, 0x0000_0000_0000_0002);
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}
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const qnan80: f80 = @bitCast(@as(u80, @bitCast(math.nan(f80))) | (1 << (math.floatFractionalBits(f80) - 1)));
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fn test__mulxf3(a: f80, b: f80, expected: u80) !void {
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const x = __mulxf3(a, b);
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const rep: u80 = @bitCast(x);
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if (rep == expected)
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return;
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if (math.isNan(@as(f80, @bitCast(expected))) and math.isNan(x))
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return; // We don't currently test NaN payload propagation
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return error.TestFailed;
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}
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test "mulxf3" {
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// NaN * any = NaN
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try test__mulxf3(qnan80, 0x1.23456789abcdefp+5, @as(u80, @bitCast(qnan80)));
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try test__mulxf3(@as(f80, @bitCast(@as(u80, 0x7fff_8000_8000_3000_0000))), 0x1.23456789abcdefp+5, @as(u80, @bitCast(qnan80)));
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// any * NaN = NaN
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try test__mulxf3(0x1.23456789abcdefp+5, qnan80, @as(u80, @bitCast(qnan80)));
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try test__mulxf3(0x1.23456789abcdefp+5, @as(f80, @bitCast(@as(u80, 0x7fff_8000_8000_3000_0000))), @as(u80, @bitCast(qnan80)));
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// NaN * inf = NaN
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try test__mulxf3(qnan80, math.inf(f80), @as(u80, @bitCast(qnan80)));
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// inf * NaN = NaN
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try test__mulxf3(math.inf(f80), qnan80, @as(u80, @bitCast(qnan80)));
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// inf * inf = inf
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try test__mulxf3(math.inf(f80), math.inf(f80), @as(u80, @bitCast(math.inf(f80))));
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// inf * -inf = -inf
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try test__mulxf3(math.inf(f80), -math.inf(f80), @as(u80, @bitCast(-math.inf(f80))));
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// -inf + inf = -inf
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try test__mulxf3(-math.inf(f80), math.inf(f80), @as(u80, @bitCast(-math.inf(f80))));
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// inf * any = inf
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try test__mulxf3(math.inf(f80), 0x1.2335653452436234723489432abcdefp+5, @as(u80, @bitCast(math.inf(f80))));
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// any * inf = inf
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try test__mulxf3(0x1.2335653452436234723489432abcdefp+5, math.inf(f80), @as(u80, @bitCast(math.inf(f80))));
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// any * any
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try test__mulxf3(0x1.0p+0, 0x1.dcba987654321p+5, 0x4004_ee5d_4c3b_2a19_0800);
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try test__mulxf3(0x1.0000_0000_0000_0004p+0, 0x1.8p+5, 0x4004_C000_0000_0000_0003); // exact
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try test__mulxf3(0x1.0000_0000_0000_0002p+0, 0x1.0p+5, 0x4004_8000_0000_0000_0001); // exact
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try test__mulxf3(0x1.0000_0000_0000_0002p+0, 0x1.7ffep+5, 0x4004_BFFF_0000_0000_0001); // round down
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try test__mulxf3(0x1.0000_0000_0000_0002p+0, 0x1.8p+5, 0x4004_C000_0000_0000_0002); // round up to even
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try test__mulxf3(0x1.0000_0000_0000_0002p+0, 0x1.8002p+5, 0x4004_C001_0000_0000_0002); // round up
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try test__mulxf3(0x1.0000_0000_0000_0002p+0, 0x1.0p+6, 0x4005_8000_0000_0000_0001); // exact
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try test__mulxf3(0x1.0000_0001p+0, 0x1.0000_0001p+0, 0x3FFF_8000_0001_0000_0000); // round down to even
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try test__mulxf3(0x1.0000_0001p+0, 0x1.0000_0001_0002p+0, 0x3FFF_8000_0001_0001_0001); // round up
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try test__mulxf3(0x0.8000_0000_0000_0000p-16382, 2.0, 0x0001_8000_0000_0000_0000); // denormal -> normal
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try test__mulxf3(0x0.7fff_ffff_ffff_fffep-16382, 0x2.0000_0000_0000_0008p0, 0x0001_8000_0000_0000_0000); // denormal -> normal
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try test__mulxf3(0x0.7fff_ffff_ffff_fffep-16382, 0x1.0000_0000_0000_0000p0, 0x0000_3FFF_FFFF_FFFF_FFFF); // denormal -> denormal
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}
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